Proceed to the Perseids with NASA’s Meteor Counter

The first time I ever saw the Perseids, I was 15 years old.

I snuck out of the house in the middle of the night (without telling my parents, of course) and found the darkest spot at the park nearby. What followed was one of the most awesome sights I had witnessed up until then: hundreds of staggered streaks of light, tearing through an ink-black sky. Part of me knew it was strict science. Another part of me was convinced it was magic. Who knew that a phenomenon that happens every day could resonate so profoundly?

Every day, on average, more than 40 tons of meteoroids strike our planet. Most are tiny specks of dust that disintegrate harmlessly high up in Earth’s atmosphere, producing a slow drizzle of “shooting stars” in the night sky. Meteors (what they’re called before they enter our atmosphere) are made of cosmic material–silicate rock, iron, and metals–left over from the early formation of our solar system.

Where do the Perseids come from?

As the Earth rotates around the sun this weekend, it will pass through the debris field of the comet Swift-Tuttle, a dirty snowball of remnants that never became planets nor stars. The comet takes about 133.2 years to orbit the sun. As it moves, a tail of gas, ice and dust is left behind it.

Each year, from mid-July to early August, the cosmic debris in this comet’s tail culminate in an evening spectacular called the Perseids.

When and How to View

This year, the meteor shower peaks late Sunday (8/11) into early Monday (8/12) just before dawn.

Find a dark field away from any light pollution. Look for the constellation Perseus, where the Perseids derive their name. It should be observable in the northeastern sky. During a Perseid meteor shower, you can expect to observe up to 100 meteoroids in an hour.

What to Bring

What’s nice about the Perseids is you don’t need any special viewing equipment. The naked eye is adequate. Grab a blanket and/or lawn chair, a cup of warm liquid, some snacks, and sit back to wait for the forthcoming light show.

NASA has a Meteor Counterapp that iPhone users can download. Viewers of the Perseids can help report how many they see within a particular time frame. The app’s “piano key” interface allows you to tap keys as you view meteoroids. It records critical data for each meteor: time, magnitude, latitude, and longitude, along with optional verbal annotations. Afterward, these data are automatically uploaded to NASA researchers for analysis.

While you’re out there, you might as well turn an otherwise passive (albeit amazing) viewing experience into a participatory one in the name of citizen science.

SciStarter wishes you a happy viewing for this year’s Perseids. If it doesn’t make you feel too cheesy, make a wish when you see your first meteoroid. I know the fifteen year old in me won’t forget to.

About Lily Bui (Editor)

Although she holds dual non-science bachelors’ degrees in International Studies and Spanish from the University of California Irvine, Lily has long harbored a proclivity for the sciences. A daughter of an engineer and an accountant who also happen to be a photographer and musician, respectively, Lily grew up on the nexus between science and art. Lily has worked on Capitol Hill in Washington, D.C.; served a year in AmeriCorps in Montgomery County, Maryland; worked for a New York Times bestselling ghostwriter in California; and performed across the U.S. as a touring musician. She currently works with WGBH-TV Boston and Public Radio Exchange (PRX) in Cambridge. In her spare time, she thinks of cheesy science puns (mostly to entertain herself). // Tweets @dangerbui

Cooperation between professionals and citizen scientists to co-create scientific knowledge expands not only depth and breadth of discoveries, but also the very possibilities for discoveries. Citizen Sci bloggers will bring stories about innovative projects, methodologies, and histories to help chart the changing landscape of public participation in scientific research.